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Immunohematology Case Studies 2016 - 2
Nicole Thornton International Blood Group Reference Laboratory (IBGRL) NHS Blood and Transplant Bristol, United Kingdom [email protected]
Clinical History • 91 year old English female with Myelodysplastic
Syndrome • Multiply transfused • Receiving 2 red cell units every 3 to 4 weeks • Suffered a haemolytic transfusion reaction (HTR)
whilst transfusing latest unit • Requires ongoing transfusion support
Serologic History
Hospital Transfusion Laboratory Results • Group O, D+ • Antibody screen: NEGATIVE • Units issued by Electronic Cross match • Following HTR they referred the patient’s sample
and the bleed line from the implicated unit to the regional red cell immunohaematology reference laboratory
Serologic History
Reference Laboratory Results • Antibody screen: NEGATIVE • 10 cell panel negative by IAT • Cells from implicated unit found to be incompatible
with the patient’s plasma • DAT on cells from unit: NEGATIVE • DAT on patient’s cells: POSITIVE (IgG) • Eluate from autologous cells: NEGATIVE
• Suspected an antibody to a low incidence antigen • The presence of anti-Wra, -Cob, -Vw, -VS were
excluded by matching antigen positive cells against the patient’s plasma
Serologic History • New samples taken a week later and referred to
IBGRL as a non-urgent case because now issuing only serological crossmatch compatible blood.
• The referring laboratory confirmed that the antibody screen was still negative.
Current Sample Presentation Data
ABO/Rh: Group O, R1r DAT: positive (IgG) Antibody Screen Method: IAT using Column Agglutination Technology and also LISS tube IAT Antibody Screen Results: negative Antibody Identification Methods: • LISS tube IAT with untreated and papain treated cells • 18ºC saline direct agglutination Antibody Identification Preliminary Results: (see panel on next slide) all papain treated panel cells positive, variable strength, mixed field reactivity observed. Incompatible unit reacting much stronger.
Antibody Identification Initial Panel Results
IAT 18ºC
D C E c e S s K Fya Fyb Jka Jkb Unt Pap Unt
1 + + 0 0 + + + 0 0 + 0 + 0 1+MF
0
2 + 0 + + 0 + 0 0 + + + 0 w 2+MF
w
3 0 + 0 + + 0 + 0 + 0 0 + w 2+MF
w
4 0 0 + + + + + 0 + + + + 0 1+MF
0
5 0 0 0 + + 0 + 0 0 + 0 + 0 1+MF
0
6 0 0 0 + + 0 + + + + + + w 2+MF
w
Unit + + 0 + + 0 3+MF 4+MF
2+MF
Auto + + 0 + + 0 0 w 0
• It was noted that the agglutination “looked unusual, like small refractile bunches of
grapes in a sea of negative cells”
Antibody Identification Initial Panel Results
(Picture credit: Reference 1)
Challenge with the Current Presentation
• all cells tested were found to be positive by papain IAT • reactivity was significantly enhanced in tests with
papain treated cells • cells from the incompatible unit were much stronger
than all other cells • the autocontrol was very weakly positive, however the
patient had been recently transfused, therefore transfused cells are likely present
• The serological presentation gave a number of distinct clues and enabled prediction of one antibody specificity in particular……………
Clues • Unusual mixed field agglutination - small refractile
agglutinates (“bunches of grapes”) on a background of free cells
• Reactivity stronger with papain treated cells • Reactivity at 18ºC (room temperature) • Variation of expression, majority of cells very weak • Implicated in HTR
Clues
anti-Sda
• Unusual mixed field agglutination - small refractile
agglutinates (“bunches of grapes”) on a background of free cells
• Reactivity stronger with papain treated cells • Reactivity at 18ºC (room temperature) • Variation of expression, majority of cells very weak • Implicated in HTR
Sda • High incidence antigen in the 901 Series • Also fondly named “Sid” after Sidney, who was the head of the
maintenance department of the Lister institute where IBGRL was originally based. He was the first individual described to have very strong expression of Sda, named the “Super Sid” [Sd(a++)] phenotype.
• Soluble form of Sda is present in human and guinea pig urine (Tamm-Horsfall glycoprotein)
• 91% incidence on red cells, but 96% incidence in urine • Sda expression varies between individuals • Cells with the Cad phenotype have strongest expression of Sda
Further Work • Testing the patient’s plasma with Sd(a++)
and Sd(a-) cells
Cells IAT 18ºC
Unt Pap Unt
Cad 4+MF 4+MF 3+MF
Sd(a++) 3+MF 4+MF 1+MF
Sd(a-) 0 0 0
Sd(a-) 0 0 0
Unit 3+MF 4+MF 2+MF
Auto 0 w 0
Cad cells reacted the strongest with the patient’s plasma.
The two examples of Sd(a-) cells were found to be negative.
The reaction strength seen with the cells of the implicated unit were comparable to the Sd(a++) cells.
Further Work • Testing the patient’s plasma with Sd(a++)
and Sd(a-) cells
Cells IAT 18ºC
Unt Pap Unt
Cad 4+MF 4+MF 3+MF
Sd(a++) 3+MF 4+MF 1+MF
Sd(a-) 0 0 0
Sd(a-) 0 0 0
Unit 3+MF 4+MF 2+MF
Auto 0 w 0
anti-Sda confirmed
Cad cells reacted the strongest with the patient’s plasma.
The two examples of Sd(a-) cells were found to be negative.
The reaction strength seen with the cells of the implicated unit were comparable to the Sd(a++) cells.
Further Work
Cells
Anti-Sda
1 2
Unit 3+MF 5+MF
Patient 0 1+MF
Sd(a++) 3+MF 5+MF
Sd(a-) 0 0
Cells from incompatible unit confirmed Sd(a++)
Post transfusion sample, therefore this is not a reliable result
• Sda typing, using two examples of anti-Sda
There is another, more reliable, way to establish Sda status that can be utilised
Haemagglutination Inhibition Tests with Urine
Cells
Patient Plasma Anti-Sda Control
+ Patient Urine
+ Sd(a+) Urine
+ Sd(a-) Urine
+ Patient Urine
+ Sd(a+) Urine
+ Sd(a-) Urine
Cad 4+MF 0 4+MF 4+MF 0 4+MF
Sd(a++) 3+MF 0 3+MF 3+MF 0 3+MF
Unit 3+MF 0 3+MF 3+MF 0 3+MF
Haemagglutination Inhibition Tests with Urine
Cells
Patient Plasma Anti-Sda Control
+ Patient Urine
+ Sd(a+) Urine
+ Sd(a-) Urine
+ Patient Urine
+ Sd(a+) Urine
+ Sd(a-) Urine
Cad 4+MF 0 4+MF 4+MF 0 4+MF
Sd(a++) 3+MF 0 3+MF 3+MF 0 3+MF
Unit 3+MF 0 3+MF 3+MF 0 3+MF
Reactivity with the patient’s plasma is inhibited by Sd(a+) urine but not Sd(a-) urine
Sda specificity confirmed
Haemagglutination Inhibition Tests with Urine
Cells
Patient Plasma Anti-Sda Control
+ Patient Urine
+ Sd(a+) Urine
+ Sd(a-) Urine
+ Patient Urine
+ Sd(a+) Urine
+ Sd(a-) Urine
Cad 4+MF 0 4+MF 4+MF 0 4+MF
Sd(a++) 3+MF 0 3+MF 3+MF 0 3+MF
Unit 3+MF 0 3+MF 3+MF 0 3+MF
Sd(a-) phenotype confirmed
The patient’s urine does not inhibit anti-Sda
Reactivity with the patient’s plasma is inhibited by Sd(a+) urine but not Sd(a-) urine
Sda specificity confirmed
Conclusions
• Anti-Sda was identified in the patient’s plasma and
no additional antibodies were detected • Patient confirmed to have the Sd(a-) phenotype,
which was established by haemagglutination tests with urine
• The implicated unit was confirmed to have the Sd(a++) phenotype
Updated Clinical Information
• Now the anti-Sda is known to be present, only
serological cross match compatible blood can be issued.
• Red cells from most ABO compatible donors will be compatible with the patient’s plasma
• Anti-Sda has not caused HDFN (but not a problem for this 91 year old woman anyway!)
Learning Points
• Sda is a high incidence antigen (in the 901 series), however expression of Sda varies significantly between individuals
• There are rare individuals with very strong expression → Cad and “Super-Sid” [Sd(a++)]
• Only 4% of individuals have a true Sd(a-) phenotype • The molecular basis of the Sd(a-) phenotype is
currently unknown, therefore a genotype test is not available to predict phenotype
• Sda substance is present in urine and haemagglutination inhibition tests with urine can be used to establish Sda status
Learning Points • Anti-Sda presents with characteristic mixed field
reactivity with small, refractile agglutinates on a background of free cells
• Sda is resistant (enhanced) to papain treatment and is usually reactive at room temperature
• Anti-Sda often presents as a possible antibody to low incidence antigen, detected when reacting with Sd(a++) cells.
• In this case, transfusion of Sd(a++) cells to a patient with anti-Sda was implicated in a HTR. Two previous cases have also been reported.
References
1. Renton PH, Howell P, Ikin EW, Giles CM, Goldsmith KLG. Anti-Sda, a New Blood Group Antibody. Vox Sanguinis (1967) 13: 493–501.
2. Daniels G: Human Blood Groups, ed 3. Oxford, Wiley-Blackwell, 2013.
3. Reid ME, Lomas-Francis C, Olsson ML: The Blood Group antigen FactsBook. ed 3. London, Academic Press, 2012.
4. Fung MK, Grossman BJ, Hillyer CD, Westhoff CM (eds): Technical Manual. ed 18. Bethesda, American Association of Blood Banks, 2014.